Thread advancing reel



P 1941- G. P. TORRENCE EI'AL 5,017

THREAD ADVANCING REEL Filed July 15, 1939 3 Sheets-Sheet l m H mCm wNAw q @5H mwwa E S TEK REF 1 H amm I \11 1 & fin N EMA s Q GRW x t \m f (Ittorneg Sept. 2, 1941.

G. P. TORRENCE ET AL THREAD ADVANC ING REEL Filed July 15, 1939 3 Sheets-Sheet 2 I a -.5 4 5 A\ 3/ g H 6 m a: /7

a 5 a H H e 25 20 Lb GEORGE F. TORRENCEI RICHARD H BERGMANN AND WALTER E KNEBUSCH BY FIG. 7

Sept. 2, 1941.

G. Pf-TQRRENCE ETAL THREADJDVANCING REEL 3 Sheets-Sheet 3 Filed July 15, 1939 d b Z a u w l, m MTM a a 1 U a m EMH w 7 m m m mam M m mm m mmmx m r I m H M m F 0mm I \v TBK v 1 a JV m m E M m ,m m a 1 w EPA? 1 l G 4/ M Numb 1 "x \\1 m 4. 3 WWW 1 h W a E lfi n Y 3 cRw x 4 3 u n & o 13 MT! "M h 1 J {4 w a m M I m F 9 7W M T m Y W m 4 fi G Z a 5 k a I g 3 .m F M V j a 4 i, a a 6 8 Z d 0 Patented Sept. 2, 1941 THREAD ADVANCING REEL George P. Torrence, Shaker Heights, Richard F. Bergmann, Lakewood, and Walter F. Knebusch, Rocky River, Ohio, assignors to Industrial Rayon Corporation, Cleveland, Ohio, a corporation of Delaware Application July 15, 1939, Serial No. 284,728

' 14 Claims.

This invention relates to reels of a kind upon which strip material such as thread, cord, tapes, bands, etc., hereinafter referred to as thread, may be continuously but temporarily advancedin spaced, generally helical turns. More particularly, the invention relates to thread-advancing reels comprising two or more interdigitating reel members which, during rotation of the reel, cooperate to advance th thread lengthwise thereof. According to the invention, the improved threadadvancing reel includes means providing for the cooperative rotation of the reel members.

A thread-advancing reel of the type in which the invention may be employed is one made up of two interdigitating reel members each of which takes the form of a generally cylindrical set of longitudinally extending bar members mounted for rotation as a set about an axis displaced from the axis of rotation of the other set. The axis of rotation of each reel member preferably lies within the periphery defined by the bar members of the other reel member, thebar members of the two reel members being interleaved in alternating relation. One of said reel members, which may be referred to as the driving member, is usually positively rotated from a suitable source of power while the other member, which may be referred to as the driven member, is usually freely rotatably mounted, being driven by contact with the driving member.

Heretofore it has been the usual, but not invariable, practice to drive one reel member from the other by permitting the bar members of the driving reel member to contact with the bar members of the driven reel member. However, because of friction developed between the bar members at the points of contact, a marked tendency to wear occurs at these points. This tendency is aggravated by the fact that, because of the displaced relation of the axes of the reel members, the bar members of the two reel members slide with respect to each other at the points of contact. In actual practice, th bar members of the reel, particularly a reel intended for the drying of thread, are sometimes made of alumi- "num, a metal which has exceptional heat-conducting qualities but which wears readily a a Irregularities in the bar members themselves also cause difliculties when the bar members of the reel members are permitted to come into contact during operation of the reel. As a practical matter, it is impossibleto construct the reel members so that they are perfectly accurate as to dimensions, particularly if the reel members are of cast or molded construction. If the bar members of the reel members come into contact during op eration of the reel, as when one reel member is driven from the other by bar-to-bar contact, such irregularities give rise to momentary variations in the relative speeds of rotation of the two reel members. Inasmuch as the thread wound about the reel is carried simultaneously by portions of the peripheries of both reel members, speed variations of the reel members cause stretching of those portions of the thread turns which are at the moment passing from one reel member to the other, thereby causing corresponding variations in the tension in the thread wound on the reel.

result of frictional forces developed when one reel member is driven from the other by bar-to-bar contact.

Furthermore, flexing of th reel members occurs under the stresses imposed by the large number of thread turns on the reel, which flexing Since the positions of such irregularities in either or both of the reel members are fixed with respect to the reel members, the momentary relative speed fluctuations between the reel members occur when the reel members are in substantially the same positions in each revolution thereof. Consequently, a cumulative stretching action occurs; that is, substantially the same portion of the thread in each turn wound on the reel is stretched during each revolution of the reel. The resulting'stretch is therefore not merely the small amount of stretch imparted by a single momentary speed variation between the reel members, but is much greater, being the cumulative effect of repeatedly stretching of the same portion of the thread as it advances lengthwise of the reel.

This localized stretching of the thread has been found to be greatly aggravated if an attempt is made to stretch the thread by flaring the reel so that it increases in diameter in the direction of ple, as freshly spun artificial silk thread, is stored on a thread-advancing reel, for such thread is very delicate while wet, stretches readily, and

- easily'acquires a set, particularly if stretched in be so seriously stretched at more or less regularly recurring intervals as to cause barr effects in the fabrics formed therefrom suillcient to render the fabrics unfit for the intended use.

In reels of this kind in which only one reel member is positively driven and the other; in order to permit of its being driven by bar-to-bar contact from the positively driven reel member, is freely rotatably mounted, difficulties also arise from backlash. Thus if the positively driven reel member is suddenly stopped or started, as a result, for example, of the employment of a jaw clutch, the bar members of the freely rotatably mounted reel member strike or are struck by those of the positively driven reel member. Sufficient inertia forces can be developed in this manner to break one or both of the reel members, particularly if they are of relatively frangible material such as a synthetic resin. Yet this cannot be avoided if one reel member is driven by bar-to-bar contact with the other, since the space between two adjacent bar members of one of the reel members is usually greater than the space occupied by the interposed bar member of the other reel member.

The present invention avoids these and other difliculties by providing means which serves at all times to locate the reel members with respect to each other so that even though they rotate simultaneously, the bar members never contact. Thus are avoided the detrimental results of wear, irregularities, and breakage due to backlash, making it possible' to drive the reel members in such manner as to insure that the reel members making up the reel rotate at identical speeds at all times even though one reel member is driven from the other. In practice, the improvements'of the present invention relating to means for maintaining the bar members out of contact Q at all times even though one reel member is driven by the other eliminate the usual'difflculties arising out of irregularities in the shape of the reel members or out of differences in the speeds of rotation of the reel members.

For convenience, but in no sense of limitation, the invention will be'described in connection with thread-advancing reels adapted for use in apparatusfor the manufacture of artificial silk thread.

Figure 1 is a plan from line l-l of Figure 2 of a thread-advancing reel constituting one embodiment of the present invention. Figure 2 is an end elevation of the reel from line 22 of Figure 1. Figure 3 is a vertical sectional elevation of said reel from line 3-3 of Figures 2 and 4. Figure 4 is a cross sectional elevation of the reel from'line 44 of Figure 3. Figure 5 is a cross sectional elevation of the reel from line 55 of Figure 3. Figure 6 is a detail sectional elevation, on an enlarged scale, corresponding to the lower central portion of Figure 3 showing the ineans for mounting one of the drive elements on one of the reel members. Figure 7 is a detail sectional elevation from line T--| of Figure 5, on the same enlarged scale as Figure 6, showing the means for mounting the drive element in the other of the reel members.

Figure 8 is a plan of a thread-advancing reel representing another embodiment of the invention. Figure 9 is a vertical sectional elevation of the reel corresponding generally to line 8-9 of Figure 10. Figure 10 is a cross sectional elevation of the reel from line i0ll| of Figure 9. Figure 11 is a cross sectional elevation of the reel fromline H--ll of Figure 9. Figure 12 is a detail sectional elevation, on an enlarged scale, corresponding to line l2l2 of Figure 11 showing the means for mounting one of the drive elements on one of the reel members of said reel. Figure 13 is a sectional elevation corresponding to the lower central portion of Figure 9, on the same enlarged scale as Figure 12, showing the means for mounting the drive element on the other reel member.

In the drawings, like reference characters refer to like parts throughout.

The reel illustrated in Figures 1 to 7, inclusive, comprises two rigid reel members i and 2 each of which is of generally circular cross section. Reel member I' has a periphery formed of a plurality of spaced, longitudinally extending bar members 3. The periphery of reel member 2 comprises a plurality of spaced, longitudinally extending bar members 4. The bar members of the two reel members are disposed alternately as shown in Figures 1 and 2, each of the reel members being mounted to rotate about an axis slightly ofiset from and inclined to that of the other reel member. The inclined relationship is shown in Figures 1 and 2, while the offset arrangement is shown in Figure 3.

Because of theoffset relation of the axes of the reel members I and 2, both reel members simultaneously carry the thread turns wound about the reel, the thread in each turn transferring from one reel member to the other during rotation of the reel. The inclined relationship of the reel members causes thread to advance lengthwise of the reel. The reel of Figures 1 to 7, as well as the reel of Figures 8 to 13, is of cantilever form; i. e., it is supported from one end only, and advances the thread from the supported to the unsupported end of the reel. In the reel of Figures 1 to 7, inclusive, the bar members are shaped in such manner that the cross sectionof the reel increases in the direction of travel ofthe thread, whereby the thread is stretched as it travels over the reel.

In the reel of the latter figures, reel member I comprises a generally cylindrical body portion 5 by means of which the reel member as a whole is mounted concentrically on drive shaft 6. To body portion 5 thereof are fixed a series of spaced, longitudinally extending bar members 3. Reel members 2, on the other hand, comprises a cage like member '2 formed of spaced longitudinally extending bar members 4 having fixed thereto at the unsupported ends thereof an internal annular reinforcing member 8 over which the projecting ends of bar members 3 extend and having fixed to the supported ends thereof an external annular reinforcing member 9 by means of which said cagelike member is rigidly mounted, as by bolts H, on rotatable supporting member l0.

Supporting member Ill is rotatably mounted on projecting frame member i2 by means of spaced antifriction bearings ill. The outer races of said bearings are located in the hub of member l0 against shoulders l4 and the inner races thereof are located on frame member l2 between shoulder l5 and collar l6. Member Ill isthus freely rotatably mounted in such manner that.

reel member 2; i. e., cagelike member 1 and supporting member 10, may rotate about an axis b-b disposed in the desired offset and inclined tion I I at the rear thereof by means of which the reel assembly may be mounted in the threadhandling apparatus of which it forms a part. Drive shaft 6, adapted to be positively rotated by means of bevel gear I8 fixed thereto, is journalled in frame member I2, being supported by antifriction bearings I3 in the rear portion of frame member I2 and by suitable bearings, such as needle bearing 20, in the front portion thereof. The outer race of antifriction bearings I9 is located between a shoulder in said frame member I2 and a snap ring 2 I, while the inner race is located between the hub of bevel gear I 3 and a snap ring 22, as shown. In this manner, drive shaft 6 and reel member I mounted thereon are located against endwise movement.

Similarly, a snap ring 23 located in a suitably positioned groove in drive shaft 6 serves as a means for locating reel member I. Flange member 24 is mounted on drive shaft 6, being located against snap ring 23 and locked in position on drive shaft 6 by suitable means as, for example, the set screw shown. Also mounted about said drive shaft is a member 23 embodying a frustoconical portion adapted to fit in a cone-shaped recess in said flange member 24 and a portion of hexagonal cross section adapted to fit into a correspondingly shaped recess in said reel member I. Through the agency of said member 25 reel member I is firmly held against said flange member 24 by means of a lock nut 21 threaded on the end of drive shaft 6 bearing against the hub portion of reel-member I.

If desired, a suitable cap nut 28, made .of resistant material, may be threaded on the end ofsaid drive shaft 6 to enclose the lock nut 21 and v the end of drive shaft 6 to prevent the entrance of processing fluids of a corrosive nature. A resilient washer 23 may be provided in a groove in said reel member I to cooperate with said'cap 28 and aid in preventing the entrance of processing fluids. betweenthe reel member I and reel member 2 to prevent access of the processing fluids to the interior portions of the reel. The reel members I and 2 are preferably made of non-metallic material, such as hard rubber, Bakelite, or other synthetic resin; so that the reel as a whole is not affected by any processing medium applied to the thread stored thereon.

As is apparent from Figure 3, reel member I,

A flexible seal 3| may be mounted being rigidly mounted on drive shaft 8, is rotated member 24, as by bolts 35 (Figures 3, 5 and 6).

Element 33 takes the form of a gearlike member having radially extending internal teeth 36 rigidly mounted in a recess 31 in the supporting member I0 of reel member 2, as by pins 33 (Figures 3, 4 and 7). As is apparent, either or both of the members may be readily removed or replaced.

The teeth 34 of member 32 and teeth 34 of member 33 are preferably of curviform conjugate shapes, such as those shown; so that although no backlash can occur, this because of the fact' that, in this embodiment of the invention, two

spaced teeth on each member contact, or nearly contact, corresponding teeth on the other gears on opposite sides. That is, one of the teeth 34 of member 32 contacts a corresponding tooth 36 of member 33 at point 40, while spaced therefrom another of the teeth 34 contacts a corresponding tooth 36 at point 4|, the points of contact of these teeth being on opposite sides thereof. Con-, sequently, there is no possibility of any appreci able backlash either in starting or stopping the reel.

While the reel of Figures 1 to '7, inclusive, is shown as adapted for stretching thread, it is apparent that its periphery may be of such contour that no stretch is imparted to the thread while it is stored thereon. The reel of these flgures is shown as particularly adaptedfor handling wet thread, since it is of such construction that it is not attacked by processing liquids which might be applied to the thread stored on the reel. As shown in Figure 3, the drive elements 32 and 33 are located between reel members I and 2 at the rear portion of reel member I, where they are entirely protected by flexible seal 3|.

The reel of Figures 8 to 13, on the other hand, i

is particularly adapted to the drying of thread, for which purpose it is-tapered toward the un supported end thereof. The reel of these figures operates on the principle of the reel hereinabove described; that is, it comprises two rigid, interdigitating reel members Ia and 2a. Reel member Ia has a periphery formed of a plurality of spaced, longitudinally extending bar members 30, while reel member 2a has a periphery formed of a plurality of spaced, longitudinally extending bar members 4a alternating with the bar members 3a of reel member Ia.

In this reel, reel member la is mounted concentrically upon and for rotation with a hollow drive shaft 6a journalled in frame member I20, as by bearings I3a and 20a (Figures 8 and 9). Reel member 2a is generally similar to the corresponding reel member of the embodiment hereinabove described in that it comprises a cagelike member Ia including spaced, longitudinally extending bar members 4a having flxed thereto at the unsupported ends thereof an annular relnforcing member 8a and, fixed to the supported ends thereof, an external annular reinforcing member So by means of which said cagellke member is rigidly mounted on supported member I (la, as by means of bolts IIa. Supported member I to is rotatably mounted by means of spaced antifriction bearings I3a on projecting frame member I2a for rotation about an axis b-b offset from and inclined to the axis of rotation H of concentricreel member Ia.

Reel member Ia includes a generally cylindrical hollow body portion 5a to which are rigidly fixed bar members 3a, which are preferably formed integrally therewith. The ends of concentric member Ia are closed by members 42 and 43, which form fluid-tight junctions with the inner surface of hollow body portion 5a. Collars 44 and 45 (Figures 8 and 9) locked in place on hollow drive shaft 6a serve to locate it endwise with respect to frame member l2a, portions of which are disposed between said collars. Collar 44 serves as means for locating reel member Ia endwise on hollow drive shaft 6a. As shown in Figure 9, reel member la is held against collar 44 by means of bolt 46 threaded into the end of hollow drive shaft 6a.

Suitable packing 41 is provided in a recess in end member 43 of reel member la between collar 44 and said end member; similarly, packing 48 is provided between bolt 45 and end member 42, these packings 41 and 48 serving to prevent leakage of fluid from the interior of reel member ia.

Heating fluid, such as hot water, steam or the like, is supplied to hollow drive shaft 60, within which is contained a return tube 49. A plug 50 is provided as shown to prevent the fluid entering the reel from passing directly from the hollow drive shaft 60 to the return tube 49. The heating fluid passes through openings 5| out of hollow drive shaft 6a into the interior of hollow body portion 5a of concentric reel member la: and thence through openings 52 into return tube 49. In order to supply heating fluid to and remove it from hollow drive shaft 6a, pipes 53 and 54 connected to a suitable fitting 55 (Figure 8) are provided, the fitting 55 being of such design as to conduct the fluid to and from the proper passages. Thus members la and 2a, which are preferably made of a metal of good heat conductivity such as aluminum, may be efliciently heated by radiation and conduction to accomplish the drying of the thread on the reel.

The reel as a whole, mounted by means of flange portion l1a, is actuated by means of hollow drive shaft 6a, which is positively rotated by means of bevel gear lBa, shown in Figure 8.

Disposed between the rear end of reel member la and supporting member Illa, as shown in Figures 9 to 13, inclusive, are two intermeshing dentated drive elements 32a and 33a one of which is fixed to each of the reel members. As shown in Figures 9, 11 and '13, drive element 32a, which takes the form of a gearlike member having radially extending external teeth 34a, is concentrically mounted upon the rear closure member 43 of reel member la by a plurality of bolts 35a. The cooperating drive element 33a, shown in Figures 9, and 12, takes the form of a gearlike member having having radially extending internal teeth 35a. said member being disposed within the periphery defined by the bar members 4a of .reel member ia'and held in place on sup ortin member Ilia bymeans of bolts 33a.

The teeth 34a and 36a of the drive elements 32a and 33a are conjugate. beingiso formed that despite the displaced relationship of the axes of the reel members with which they are associated, the reel members rotate smoothly and uniformly upon rotation of drive shaft 8a. Due to their'conformation. they permit of no contact of the bar members 3a and 4a. As is explained in connection with the embodiment of the invention shown in Figures 1 to 7, inclusive, the teeth of the cooperating drive elements are so formed that no appreciable backlash can occur between the reel members. Consequently. the possibility of breakage due to inertia effects incident to starting and stopping, together with the possibility of sudden variations in the thread tensions due to momentary changes in speed, are completely avoided.

The drive elements 32 and 33 or 32a and 330; may, of course, be formed integrally with the reel members or with their respective supportingmeans. If separately formed, they may be permanently affixed thereto. It is, however, preferable that said drive elements be demountably fabric. It has been found that if the cooperat- 1 ing drive elements are formed of this combination of materials they will continue to operate for long periods of time with little, if any, wear, even though not lubricated. It is desirable for several reasons that the necessity for lubricating the i drive elements be obviated; viz., because of the difliculty of obtaining access to such drive elements without dismantling the reel as a whole;

because the escape of lubricants therefrom would soil the thread and contaminate the processing fluids; and because in a heated reel it would be difficult, if not impossible, to maintain a lubricant at the high temperatures of operation. However, other combinations of materials than those described may be employed; indeed, one or both of the driving elements may, if desired, be formed of a material which is self-lubricated.

Thus, the invention provides, among other things, an improved thread-advancing reel embodying means for maintaining the bar members thereof completely out of contact at all times, this even though one reel member is driven from the other. In consequence of the employment of such a thread-advancing reel, wear of the reel itself is minimized, difiiculties due to irregularities in the shape of the reel members are eliminated, and for the first time it becomes practicable to drive one reel member from the other at a substantially constant speed. The herein-described embodiments of the invention are of course illustrative; as a matter of fact, various modifications may be made therein and various devices embodying the invention may be employed in uses other than those indicated without departing from the spirit of the invention.

It is intended that the patent shall cover, by suitable expression in the appended claims, whatever features of patentable novelty reside in the invention.

What is claimed is:

l. A thread-advancing reel comprising two interdigitating sets of bar members, each of said sets as a whole being mounted for rotation about an axis displaced from that of the other set; a demountable externally toothed gear adapted to rotate concentrically with one of said sets of' bar members; and, surrounding and meshing with said demountable externally toothed gear, a demountable annular internally toothed gear adapted to rotate concentrically with the other set of bar members.

2. A device of the character described in claim 1 in which one of said gears is formed of metal and the other of non-metallic material. 1

3. A thread-advancing reel comprising two rigid, interdigitating sets of bar members each of which is substantially circular in cross section but varies in cross'sectional diameter along the length thereof mounted for rotation about axes inclined to each other, the axis of each of said sets of bar members lying within the peripherydefined by the other set of bar members; an externally toothed gear adapted to rotate concentrically with one of said sets of bar members; and, surrounding and meshing wih said externally toothed gear, an internally toothed gear adapted to rotate concentrically with the other set of bar members, at least one of said gears being separately formed and rigidly fixed its corresponding set of bar members.

4. 'A flared thread-advancing reel comprising a plurality of interdigitating sets of bar members, each of said sets as a whole being mounted for rotation about an axis displaced from that of the other set; a separately formed externally toothed gear operatively associated with one of said cage members; and, surrounding and meshing with said externally toothed gear, a separately formed internally toothed gear operatively associated with the other of said sets of bar members.

5. A tapered thread-advancing reel comprising a plurality of interdigitating sets of bar members, each of said sets as a whole being mounted for rotation about an axis displaced from that of the other set; a separately formed externally toothed gear operatively associated with one of said cage members; and, surrounding and meshing with said externally toothed gear, a separately formed internally toothed gear operatively associated with the other of said sets of bar members.

6. A thread-advancing reel comprising two interdigitating sets of bar members extending lengthwise of the reel, each of said sets as a whole being mounted for rotation about an axis displaced from that of the other set; a member having external adial teeth formed thereon operatively associa d with one of said sets of bar members; and, engaging saidexternally toothed member, a member operatively associated with the other of said sets of bar members having formed therein a number of internal radial teeth equal to the number of teeth on said extemailytoothed member, said internallyand externallytoothed members having cooperating bearing surfaces which intermesh in substantially rolling relation without backlash or binding, thereby preventing the bar members of said sets from contacting.

7. A device of the character described in claim 6 in which the teeth of one of said radiallytoothed members are formed of metal and the teeth of the other are formed of non-metallic material, the materials of said teeth cooperating to provide good wearing qualities in the absence of lubrication.

8. A thread-advancing reel comprising two interdigitating sets of bar members extending lengthwise of the reel, each of said sets as a whole being mounted for rotation about an axis displaced from that of the other set; a separately formed gear having external radial teeth formed thereon operatively associated with one of said sets' of. bar members; and, engaging said externally-toothed gear, a separately formed gear operatively-associated with the other of said sets of bar members having formed therein a number or internal radial teeth equal to the number of 'teeth on said externally-toothed gear, said internallyand externally-toothed gears having cooperating bearing surfaces which intermesh in substantially rolling relation without backlash or binding, thereby preventing the bar members of said sets from contacting.

9. A device of the character described in claim 8 in which one of said radially-toothed gears is formed of metal and the other radially-toothed 'gear is formed of non-metallic material, the me- ;tallic and non-metallic materials of said gears cooperating to provide good wearing qualities in the absence of lubrication.

10. A cantilever thread-advancing reel comprising a frame member which is supported from 7 one end only; a first set of spaced, longitudinallyextending bar members rotatably mounted on the unsupported end of said frame member; a second set of spaced, longitudinally-extending bar members alternating with those of said first set of bar members likewise rotatably mounted on the unsupported end of said frame member, said second set of bar members including a hub member rotatably carried by said frame member to which hub member are rigidly fixed the bar members of said second set; a member having external radial teeth formed therein operatively associated with one of said sets of bar members; and, surrounding said externally-toothed member, a member operatively associated with the other of said sets of bar members having internal radial teeth formed therein equal in number to, meshing with, and characterized by profiles which are conjugate in respect of the profiles of the teeth on said externally-toothed member whereby to keep the bar members of said sets out of contact, the radially-toothed member ,associated with said second set of bar members being carried by said hub member.

11. A device of the character described in claim 10 in which the teeth of one of said radially-toothed members are formed of metal and the teeth of the other are formed of non-metallic material, the materials of said teeth cooperating to provide good wearing qualities in the absence of lubrication.

12. A cantilever thread-advancing reel comprising a frame member which is supported from one end only; a first set of spaced, longitudinallyextending bar members rotatably mounted on the unsupported end of said frame member; a second set of spaced, longitudinally-extending bar members alternating'with those of said first set of bar members likewise rotatably mounted on the unsupported end of said frame member, said second set of bar members including a hub member rotatably carried by said frame member to which hub member are rigidly fixed the bar members of said second set; a separately formed gear having external radial teeth formed therein operatively associated with one of said sets of bar members; and, surrounding said extemally-toothed gear, a separately formed gear associated with the other of said sets of bar members having internal radial teeth formed therein equal in number to, meshing with, and characterized by profiles which are conjugate in respect of the profiles of the teeth on said externally-toothed gear whereby to keep the bar members of said sets out of contact, the radiallytoothed gear associated with said second set of bar members being carried by said hub member.

13. A device of the character described in claim 12 in which one of said radially-toothed gears is formed oi metal and the other is formed of nonmetallic material, the materials of said gears cooperating to provide good wearing qualities in the absence of lubrication.

14. A thread-advancing reel comprising two interdigitating sets of bar members, each of said 6 sets as a whole being mounted for rotation about an axis displaced from that of the other set; a member having external radial teeth formed therein structurally associated and adapted to rotate concentrically with one of said sets of bar 10 members; and, surrounding and meshing with said externally-toothed member, a member structurally associated and adapted to rotate con- .centrically with the other set of bar members having internal radial teeth formed therein equal in number to the teeth on said extemallytoothed member, at least one of said radially toothed members taking the form of a gear d'emountably connected to its associated set of bar members.

GEORGE P. TORRENCE.

RICHARD F. BERGMANN.

WALTER F. KNEBUSCH.

CERTIFICATE OF CORRECTION,

Patent No. 2,255,017. September 2, 19in.

GEORGE P. TORRENCE, ET AL.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page 5, first column, line 11, claim 3, for "W111" read -wit1'1 and second coluinn, line 61;, claim 12, before "associated" insert --operatively--; and that the said Letters Patent should be read with this correction therein that the same may conform to the record of the case in the Patent Office.

Bigned and sealed this 28th day of October, A. D. 19141.

Henry Van Arsdale, (Seal) Acting Commissioner of Patents. 

